from netgen.csg import * from netgen import meshing import filecmp import difflib from math import sqrt, cos, sin def CreateQuad(): base = Plane(Pnt(0,0,0),Vec(0,0,1)) surface = SplineSurface(base) pts = [(-0.2,-0.2,0),(-0.2,0.2,0),(0.2,0.2,0),(0.2,-0.2,0)] geopts = [surface.AddPoint(*p) for p in pts] for p1,p2,bc in [(0,1,"wire"), (1, 2,"contact"),(2,3,"wire"),(3,0,"wire")]: surface.AddSegment(geopts[p1],geopts[p2],bc) return surface Cross = lambda a,b: [a[1]*b[2]-a[2]*b[1],a[2]*b[0]-a[0]*b[2],a[0]*b[1]-b[0]*a[1]] def CreateGeo(): geo = CSGeometry() air = OrthoBrick(Pnt(-1,-1,-1),Pnt(1,1,1)) geo.Add(air.mat("air")) surface = CreateQuad() geo.AddSplineSurface(surface) return geo def test_BBNDsave(): mesh = CreateGeo().GenerateMesh(maxh=0.4,perfstepsend = meshing.MeshingStep.MESHSURFACE) for i in range(2): mesh.GenerateVolumeMesh(mp = MeshingParameters(only3D_domain=i+1,maxh=0.4)) mesh.SetGeometry(None) mesh.Save("test.vol") mesh2 = meshing.Mesh() mesh2.Load("test.vol") mesh2.Save("test2.vol") with open("test.vol","r") as f: first = f.readlines() with open("test2.vol","r") as f: second = f.readlines() # exclude the face colours section (because they aren't in the same order) for i,line in enumerate(first): if line[0:12] == "face_colours": first = first[0:i] second = second[0:i] break diff = difflib.context_diff(first,second) print("File diff:") l = list(diff) print(*l) assert len(l)==0